An adult plant stripe rust resistance gene maps on chromosome 7A of Australian wheat cultivar Axe

Kanwal, Mehwish; Qureshi, Naeela; Gessese, Mesfin Kebede; Forrest, Kerrie; Babu, Prashanth; Bariana, Harbans; Bansal, Urmil

doi:10.1007/s00122-021-03818-x

Cited by 9 publications

(3 citation statements)

References 45 publications

(21 reference statements)

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“…Our data shed light into the potential employment of the effective Lr genes like Lr2a, Lr28 and Lr19 that are of interest to wheat breeding programs to improve the resistance of Iranian wheat cultivars against leaf rust. terization of novel resistance sources is the prerequisite and most important strategy for controlling rust diseases in wheat and pyramiding these genes for durable resistance 33,34 . The rapid evolution of pathogens due to fungicide application, environmental conditions and also narrow genetic base of resistance genes in improved wheat genotypes can easily lead to the breakdown of the resistance genes 17,35 .…”

Section: Discussionmentioning

confidence: 99%

Physiological specialization of Puccinia triticina and genome-wide association mapping provide insights into the genetics of wheat leaf rust resistance in Iran

Talebi

Mahboubi

Naji

et al. 2023

Sci Rep

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Leaf rust caused by Puccinia triticina Erikss. (Pt) is the most widely distributed and important wheat disease worldwide. The objective of the present study was to determine the frequency of Iranian Pt races, their virulence to key resistance genes and map quantitative trait loci (QTL) for resistance to different Pt races from 185 globally diverse wheat genotypes using a genome-wide association study (GWAS) approach. The virulence pattern of the 33 Pt isolates from various wheat-growing areas of Iran on 55 wheat differentials showed that the FKTPS and FKTTS were relatively frequent pathotypes among the 18 identified races. The weighted average frequency of virulence on the resistance genes Lrb, Lr3bg, Lr14b, Lr16, Lr24, Lr3ka, Lr11 and Lr20 were high (> 90%). However, low virulence on the resistant genes Lr2a, Lr9, Lr19, Lr25, Lr28 and Lr29 indicates that these genes are still effective against the pathogen population in Iran at present. GWAS on a panel of 185 wheat genotypes against 10 Pt races resulted into 62 significant marker-trait associations (MTAs) belonged to 34 quantitative trait loci (QTL) across 16 chromosomes. Among them, 10 QTLs on chromosomes 1A, 1B, 3B, 3D, 4A, 6D, 7A and 7D were identified as potential novel QTLs, of which four QTLs (QLr.iau-3B-2, QLr.iau-7A-2, QLr.iau-7A-3 and QLr.iau-7D-2) are more interesting, as they are associated with resistance to two or more Pt races. The known and novel QTLs associated with different Pt races found here, can be used in future wheat breeding programs to recombine different loci for durable resistance against leaf rust races.

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Section: Discussionmentioning

confidence: 99%

Physiological specialization of Puccinia triticina and genome-wide association mapping provide insights into the genetics of wheat leaf rust resistance in Iran

Talebi

Mahboubi

Naji

et al. 2023

Sci Rep

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“…A locus conferring ASR was controlled by a major gene, Yrzhong12 -1, located in the interval of SSR markers Xcfd20 (3.1 cM) and Xbarc121 (4.9 cM) on chromosome 7AL (Ma et al, 2015 ). Kanwal et al ( 2021 ) identified the adult-plant stripe rust resistance gene Yr75 in the Australian wheat cultivar Axe and mapped the gene on the long arm of chromosome 7A, and the two SNP markers sunKASP_430 and sunKASP_427 were closely linked to the gene.…”

Section: Discussionmentioning

confidence: 99%

Genome-Wide QTL Mapping for Stripe Rust Resistance in Winter Wheat Pindong 34 Using a 90K SNP Array

Zhou

Li²,

Han³

et al. 2022

Front. Plant Sci.

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Winter wheat cultivar Pindong 34 has both adult-plant resistance (APR) and all-stage resistance (ASR) to stripe rust, which is caused by Puccinia striiformis f. sp. tritici (Pst). To map the quantitative trait loci (QTL) for stripe rust resistance, an F6−10 recombinant inbred line (RIL) population from a cross of Mingxian 169 × Pingdong 34 was phenotyped for stripe rust response over multiple years in fields under natural infection conditions and with selected Pst races under controlled greenhouse conditions, and genotyping was performed with a 90K single nucleotide polymorphism (SNP) array chip. Inclusive composite interval mapping (ICIM) identified 12 APR resistance QTLs and 3 ASR resistance QTLs. Among the 12 APR resistance QTLs, QYrpd.swust-1BL (explaining 9.24–13.33% of the phenotypic variation), QYrpd.swust-3AL.1 (11.41–14.80%), QYrpd.swust-3AL.2 (11.55–16.10%), QYrpd.swust-6BL (9.39–12.78%), QYrpd.swust-6DL (9.52–16.36%), QYrpd.swust-7AL (9.09–17.0%), and QYrpd.swust-7DL (8.87–11.38%) were more abundant than in the five tested environments and QYrpd.swust-1AS (11.05–12.72%), QYrpd.swust-1DL (9.81–13.05%), QYrpd.swust-2BL.1 (9.69–10.57%), QYrpd.swust-2BL.2 (10.36–12.97%), and QYrpd.swust-2BL.3 (9.54–13.15%) were significant in some of the tests. The three ASR resistance QTLs QYrpd.swust-2AS (9.69–13.58%), QYrpd.swust-2BL.4 (9.49–12.07%), and QYrpd.swust-7AS (16.16%) were detected based on the reactions in the seedlings tested with the CYR34 Pst race. Among the 15 QTLs detected in Pindong 34, the ASR resistance gene QYrpd.swust-7AS mapped on the short arm of chromosome 7A was likely similar to the previously reported QTL Yr61 in the region. The QTLs identified in the present study and their closely linked molecular markers could be useful for developing wheat cultivars with durable resistance to stripe rust.

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“…Stripe rust ( Puccinia striiformis f.sp . tritici , Pst ) is a recurrent disease that causes serious annual decreases in wheat yields [ 28 , 29 ]. Development and transfer of novel resistance genes contained in related wild wheat species is one of the most efficient and environmentally-friendly approaches to fighting stripe rust.…”

Section: Introductionmentioning

confidence: 99%

Molecular cytogenetics and development of St-chromosome-specific molecular markers of novel stripe rust resistant wheat–Thinopyrum intermedium and wheat–Thinopyrum ponticum substitution lines

Wang

Feng

et al. 2022

BMC Plant Biol

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Background Owing to their excellent resistance to abiotic and biotic stress, Thinopyrum intermedium (2n = 6x = 42, JJJsJsStSt) and Th. ponticum (2n = 10x = 70) are both widely utilized in wheat germplasm innovation programs. Disomic substitution lines (DSLs) carrying one pair of alien chromosomes are valuable bridge materials for transmission of novel genes, fluorescence in situ hybridization (FISH) karyotype construction and specific molecular marker development. Results Six wheat–Thinopyrum DSLs derived from crosses between Abbondanza nullisomic lines (2n = 40) and two octoploid Trititrigia lines (2n = 8x = 56), were characterized by sequential FISH–genome in situ hybridization (GISH), multicolor GISH (mc-GISH), and an analysis of the wheat 15 K SNP array combined with molecular marker selection. ES-9 (DS2St (2A)) and ES-10 (DS3St (3D)) are wheat–Th. ponticum DSLs, while ES-23 (DS2St (2A)), ES-24 (DS3St (3D)), ES-25(DS2St (2B)), and ES-26 (DS2St (2D)) are wheat–Th. intermedium DSLs. ES-9, ES-23, ES-25 and ES-26 conferred high thousand-kernel weight and stripe rust resistance at adult stages, while ES-10 and ES-24 were highly resistant to stripe rust at all stages. Furthermore, cytological analysis showed that the alien chromosomes belonging to the same homoeologous group (2 or 3) derived from different donors carried the same FISH karyotype and could form a bivalent. Based on specific-locus amplified fragment sequencing (SLAF-seq), two 2St-chromosome-specific markers (PTH-005 and PTH-013) and two 3St-chromosome-specific markers (PTH-113 and PTH-135) were developed. Conclusions The six wheat–Thinopyrum DSLs conferring stripe rust resistance can be used as bridging parents for transmission of valuable resistance genes. The utility of PTH-113 and PTH-135 in a BC1F2 population showed that the newly developed markers could be useful tools for efficient identification of St chromosomes in a common wheat background.

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An adult plant stripe rust resistance gene maps on chromosome 7A of Australian wheat cultivar Axe

Cited by 9 publications

References 45 publications

Physiological specialization of Puccinia triticina and genome-wide association mapping provide insights into the genetics of wheat leaf rust resistance in Iran

Physiological specialization of Puccinia triticina and genome-wide association mapping provide insights into the genetics of wheat leaf rust resistance in Iran

Genome-Wide QTL Mapping for Stripe Rust Resistance in Winter Wheat Pindong 34 Using a 90K SNP Array

Molecular cytogenetics and development of St-chromosome-specific molecular markers of novel stripe rust resistant wheat–Thinopyrum intermedium and wheat–Thinopyrum ponticum substitution lines

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